Perceptual space, pleasantness and periodicity of multi-tone sounds.

Technical sounds often contain several tonal components, forming a multi-tone sound. The present study investigates the perception of multi-tone sounds consisting of two harmonic complexes with different fundamental frequencies and combination tones with frequencies that are equal to the sum of multiple integers of the two fundamentals. The experimental parameter is the ratio between the two fundamental frequencies ρ. A total of 15 synthetic multi-tone sounds are rated by 37 participants. In the first experiment, the perceptual space is assessed based on 16 adjective scales using categorical scaling. The resulting perceptual space has the four dimensions (i) pleasant, (ii) power, (iii) temporal structure, and (iv) spectral content of the sounds. In the second experiment, the pleasantness is measured with a paired comparison test. The data consistently show that sounds based on ratios of small integers (e.g., ρ=4:3) are significantly less pleasant than sounds with ratios based on large integers which were constructed by a slight detuning from a ratio of small integers. The repetition rate derived from an autocorrelation analysis of the stimuli turns out to be a good predictor of the (un-)pleasantness sensation.